Wireless local area network

ABSTRACT

A wireless network includes a base transceiver station configured to transmit signals over a wireless connection to a plurality of terminals and receive signals over a wireless connection from a plurality of terminals. The terminal may transmit a connection request message including an identifier and a request to identify the new terminal to the network when the new terminal tries to access the wireless network. A base station or access point may receive or maintain information or a list regarding one or more new terminals attempting to access the wireless network. The base station or access point may receive a control command indicative of a selection of at least one terminal from the list. The base station or access point may connect the at least one terminal to the access point or network.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 12/474,156, filed May 28, 2009, which is a continuation of U.S. application Ser. No. 09/860,765, filed May 21, 2001, now issued as U.S. Pat. No. 7,554,957 on Jun. 30, 2009, which claims the benefit of Finnish Application No. 20001311, filed May 31, 2000. All of the above-referenced applications are incorporated by reference as if fully set forth.

TECHNICAL FIELD

The exemplary embodiments relate to a wireless local area network wherein terminals, through a base transceiver station, are able to communicate with each other and possibly with terminals connected to other telecommunication networks if the base transceiver station is connected e.g. to the Internet.

BACKGROUND

Wireless local area networks are previously known, such as wireless local area networks WLAN, wherein mobile terminals (clients) equipped with WLAN cards move around and, using radio signals, communicate with “access points.” A problem associated with these known wireless local area networks is the way in which a new terminal is connected to a network. Since terminals are connected to the network through a wireless connection, in practice the wireless network necessitates an arrangement to prevent unauthorized terminals from connecting to the network. Otherwise there is a risk that e.g. an outsider standing in the street might, using a wireless terminal, access a wireless local area network of an adjacent company.

In the known wireless local area networks, the use of unauthorized devices has been prevented by only allowing terminals registered in a particular network to be used therein. If a new terminal is to be used in the network, information on the particular terminal should be registered in the network in advance so that a base transceiver station of the network would be willing to communicate with the new terminal.

In the known wireless local area networks, the registration mentioned above is implemented such that each terminal has a unique identifier of its own to enable the particular terminal to be identified. Before the terminal is put to use in a wireless network, the identifier of the terminal should be entered into the wireless local area network. In practice, the identifier can be entered e.g. into a base transceiver station of the wireless local area network. When the wireless network knows the identifier identifying the terminal, the base transceiver station of the wireless network allows the terminal to access the network.

SUMMARY

The known solution described above presents such a problem that it is relatively difficult to register a new terminal in a wireless local area network. In practice, the problem usually is that a user does not know the identifier of his or her terminal. Neither can the user thus enter into the local area network the identifier that would enable his or her terminal to be used in the wireless local area network. The problem is particularly serious in wireless networks used in households and small companies, because technical support is not often available, at least not easily enough.

An object of the present disclosure is to alleviate the above-described problem and to provide a solution to improve the user-friendliness of wireless local area networks, and particularly to make a new terminal easier to connect to a wireless local area network. This object is achieved by an exemplary embodiment for connecting a terminal to a wireless local area network. The exemplary embodiment is characterized by arranging said terminal to transmit a connect message comprising an identifier to identify the terminal, retrieving, through a user interface, information on terminals which have tried to access the local area network, i.e. terminals that have transmitted a connect message, selecting, through the user interface, said terminal to be connected to the local area network from among the terminals that have tried to access the local area network, and entering, through the user interface, a control command as a result of which the local area network allows the terminal selected through said user interface to access the local area network.

An exemplary embodiment also relates to a wireless local area network comprising: a base transceiver station comprising means for transmitting signals over a wireless connection to one or more terminals connected to the local area network, and means for receiving signals over a wireless connection from one or more terminals connected to the local area network, and a user interface to enable a user to transmit a control command to the local area network in order for the local area network to allow a new terminal to be connected to the local area network. An exemplary embodiment is characterized in that said new terminal is arranged to transmit a connect message comprising an identifier to identify the new terminal to the local area network when said new terminal tries to access said wireless network, the local area network is arranged to transmit information on one or more new terminals trying to access said wireless network to the user through said user interface, and the local area network is arranged to provide access to the network for the terminal(s) the information on which has been transmitted to the user through the user interface and for which the user has given said control command through the user interface.

An exemplary embodiment also relates to a base transceiver station of a wireless local area network, the base transceiver station comprising means for transmitting signals over a wireless connection to one or more terminals connected to the local area network, and means for receiving signals over a wireless connection from one or more terminals connected to the local area network. The base transceiver station of the exemplary embodiment is characterized in that the base transceiver station comprises means for transmitting information on one or more new terminals which have tried to access said wireless network to a user interface, and the base transceiver station is arranged to provide access to the network for the terminal(s) the information on which has been transmitted to said user interface by the base transceiver station and for which the base transceiver station has received a control command through the user interface in order to connect the terminals(s) to the wireless network.

An exemplary embodiment also relates to a terminal of a wireless local area network, the terminal comprising means for transmitting signals over a wireless connection to a base transceiver station of the local area network, and means for receiving signals over a wireless connection from the base transceiver station of the wireless local area network. The terminal of the exemplary embodiment is characterized in that the terminal is arranged to transmit a connect message comprising an identifier to identify the terminal to the base transceiver station when said terminal tries to access said wireless network.

An exemplary embodiment is based on the idea that the user-friendliness of a wireless local area network is considerably improved when a new terminal to be connected to the network is arranged to transmit its identifier to the wireless network, whereafter, through a user interface of the wireless local area network, the new terminal on which information is transmitted to the user by the user interface is simply accepted into use by the user. The user does thus not need to know the identifier of the terminal to be connected to the wireless local area network but the identifier is automatically transmitted from the terminal to the wireless local area network. The user, through the user interface, only needs to accept the new terminal to be connected to the network.

In accordance with the exemplary embodiment, information e.g. on the terminals that have tried to access the wireless network during the last minute can be transmitted to the user through the user interface. The user can thus be sure that e.g. the terminal that he or she has just switched on in order to connect the particular terminal to the wireless local area network is the particular terminal the information on which is transmitted to the user by the user interface.

The most important advantage of the solution of the exemplary embodiment is thus improved user-friendliness. Furthermore, the user, through the user interface of the local area network, is enabled to monitor whether an outside terminal repeatedly tries to access his or her local area network. This is achieved by providing the wireless local area network with a memory to store long-term information on the terminals that have tried to access the wireless local area network.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following, exemplary embodiments will be described in closer detail by way of example and with reference to the accompanying drawings, in which

FIG. 1 is a block diagram showing a first exemplary embodiment of a wireless network, and

FIG. 2 is a flow diagram showing a first exemplary embodiment of a wireless network.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1 is a block diagram showing a first exemplary embodiment of a wireless network. In the case of FIG. 1, a base transceiver station 1 serves as an access point of the local area network. In the exemplary case of FIG. 1, the base transceiver station 1 is connected to a more extensive telecommunication network, e.g. to the Internet, through an asymmetric data subscriber line ADSL interface.

The wireless local area network of FIG. 1 has been provided with two terminals, i.e. a portable microcomputer 2 and a desktop micro-computer 3, connected thereto. Using radio signals, the terminals communicate with the base transceiver station 1, which means that through the base transceiver station they are able to communicate e.g. with each other or, alternatively, they can be connected e.g. to the Internet through the ADSL interface of the base transceiver station. The microcomputers 2 and 3 can be prior art microcomputers having wireless local area network WLAN cards known per se installed therein. The WLAN cards are provided with the necessary radio equipment to enable the microcomputers, using radio signals, to communicate with the base transceiver station. In the WLAN network of FIG. 1, communication may take place e.g. within a frequency range of 2.4 GHz.

Although in the case of FIG. 1 both terminals connected to the wireless local area network are microcomputers, any device for which a telecommunication connection is to be set up can be connected to the wireless network. The terminals can thus comprise e.g. an output unit, wireless telephone or a home electronics device, such as a television, radio or even a washing machine, if a need exists to set up a telecommunication connection to such a device.

The wireless local area network of FIG. 1 also comprises a user interface 4 to enable the wireless local area network to be controlled. In the exemplary case of FIG. 1, a terminal connected to the base transceiver station 1 constitutes the user interface. The user interface can, however, be implemented in another way, e.g. by integrating it into the base transceiver station 1. The base transceiver station can then comprise a display and a keypad to enable the user to control the local area network.

In the case of FIG. 1, the user interface can be integrated such that the base transceiver station maintains world wide web WWW pages onto which it produces information on the local area network. The terminal serving as the user interface 4 then employs browser software to enable a person maintaining the local area network to access the WWW pages of the base transceiver station in order to read and enter information. According to an exemplary embodiment, a piece of the information produced onto the WWW pages of the base transceiver station is a list of such terminals which have tried to access the wireless local area network e.g. during the last minute. The user can thus see the list of the terminals that have tried to access the network from the display of the user interface 4, in which case the user can through his or her terminal give a control command to the base transceiver station e.g. to connect a particular terminal to the wireless local area network. The process of connecting a new terminal to the local area network of FIG. 1 will be described in closer detail by means of the flow diagram of FIG. 2.

FIG. 2 is a flow diagram showing a first exemplary embodiment of method for use in a wireless network. The flow diagram of FIG. 2 can be utilized e.g. for connecting a new terminal to the wireless local area network shown in FIG. 1. In the following description, it will be assumed that a terminal 3 is being connected to the wireless local area network of FIG. 1, the use of the particular terminal in the local area network having earlier been prevented by the base transceiver station 1 because the terminal has not been previously registered in the local area network of FIG. 1.

In block A, the terminal 3 trying to access the network is arranged to transmit a connect message provided with an identifier of the terminal. Prior to this, the terminal 3 has either automatically examined the available channels until it has found the traffic channel used by the base transceiver station (the network name determined for the terminal being displayed on the traffic channel) or the correct traffic channel has been supplied to the terminal, in which case the terminal does not need to carry out a search. In block A, the terminal 3 is arranged to transmit such a connect message that the local area network (the base transceiver station in the case of FIG. 1) will understand that the terminal is a new terminal which tries to access the local area network maintained by the base transceiver station. The identifier transmitted in the connect message by the terminal 3 comprises a unique, terminal-specific identifier to enable the terminal to be distinguished from other terminals. An alternative is to use a medium access control MAC address of the terminal.

In block B, information on the terminal that tried to access the network is retrieved through the user interface 4. In the case of FIG. 1, this information is stored in the memory of the base transceiver 1, from which it is retrieved by means of the user interface 4, i.e. the terminal. According to an exemplary embodiment, the display of the user interface then shows a list of the identifiers of the terminals that have tried to access the network. The times at which the terminal having the particular identifier has tried to access the network can be shown in connection with the identifiers. Alternatively, the display of the user interface may show a list of the identifiers of only the terminals that have tried to access the network e.g. during the last minute. The user can thus be relatively sure that the identifier shown on the display of the user interface is the identifier of the terminal 3 which he or she is adding to the wireless network.

In block C, the terminal 3 to be connected to the network is selected through the user interface from among the devices that have tried to access the wireless network, and in block D, through the user interface, a control command is entered as a result of which the local area network, i.e. in practice the base transceiver station 1 in the case of FIG. 1, allows the selected device(s) to access the network. Depending on the implementation, the procedures of blocks C and D can be carried out in one or more stages, e.g. such that the terminal(s) that is/are to be connected to the network is/are selected from the user interface by means of the graphic user interface 4, after which a control command is given e.g. by pressing the ENTER key to accept the selected terminals to be added to the network.

In accordance with an exemplary embodiment, the user interface enables the user, through the user interface, to enter a “cleartext name” (e.g. “the study computer”) for the new terminal connected to the network. If desired, through the user interface, the user is thus capable of viewing the list of the terminals that are allowed to be used in the network, the list being located in the memory of the base transceiver station 1. The cleartext names selected by the user himself or herself thus enable as user-friendly a presentation of the allowed devices as possible. If the user later wishes to remove a single device, this can also be carried out through the graphic user interface e.g. such that the user, using the list produced by the user interface, selects the terminal he or she wishes to remove. Since the names given by the user to the terminals are shown, different devices are easy to identify through the user interface.

It is to be understood that the above description and the related figures are only intended to illustrate the present invention. It is obvious to one skilled in the art that the invention can be varied and modified in many ways without deviating from the scope and spirit of the invention disclosed in the claims. 

1. A method for connecting a terminal to a network, the method comprising: receiving a connection request message at an access point from the terminal over a wireless portion of the network, the connection request message comprising a unique identifier corresponding to the terminal; sending a list from the access point over a wired portion of the network, the list comprising terminals from which connection request messages have been received; receiving a control command at the access point over the wired portion of the network, the control command indicating a selection of at least one terminal from the list to be connected to the network; and connecting the at least one terminal to the network through the access point.
 2. The method of claim 1, wherein the terminal is a wireless telephone.
 3. The method of claim 1, wherein the list identifies a plurality of connection request messages for at least one of a plurality of terminals and includes times associated with each of the identified connection request messages.
 4. The method of claim 1, further comprising displaying the list in a browser of an interface connected to the network.
 5. The method of claim 1, wherein the list associates a time at which the terminal attempted to access the wireless network with the unique identifier of the terminal.
 6. The method of claim 1, further comprising, associating the unique identifier of the terminal with a cleartext name selected via an interface, wherein the list associates the cleartext name with the unique identifier of the terminal that attempted to access the wireless network.
 7. A base station in a wireless network, the base station comprising: wireless receiver means for receiving a connection request message from a terminal over a wireless portion of the network, the connection request message comprising a unique identifier corresponding to the terminal; wired transmitter means for sending a list over a wired portion of the network, the list comprising terminals from which connection request messages have been received; wired receiver means for receiving a control command over the wired portion of the network, the control command indicative of a selection of at least one terminal from the list to be connected to the network; and wherein the wireless transmitter means is further for connecting the at least one terminal through the access point to the network.
 8. The base station of claim 1, wherein the terminal includes a wireless telephone.
 9. The base station of claim 7, further comprising an interface in communication with the wired transmitter means and the wired receiver means, the interface provided on a separate terminal connected to the wireless network.
 10. The base station of claim 9, wherein the interface is integrated with the base station.
 11. The base station of claim 9, wherein the information transmitted to the interface further identifies a plurality of connection request messages for a same terminal and a time associated with each of the identified connection request messages.
 12. A method for managing access to a network through a base transceiver, the method comprising: receiving, at the base transceiver, a connection request message from the terminal over a wireless portion of the network, the connection request message comprising a unique identifier corresponding to the terminal; sending, from the base transceiver, a list over a wired portion of the network, the list comprising terminals from which connection request messages have been received; receiving, at the base transceiver, a control command over the wired portion of the network, the control command indicative of a selection of at least one terminal from the list to be connected to the network; and connecting the at least one terminal through the base transceiver to the network.
 13. The method of claim 12, wherein the terminal includes a wireless telephone.
 14. The method of claim 12, wherein the list identifies the connection request messages using the unique identifiers for the terminals associated with the connection request messages.
 15. The method of claim 12, further comprising an interface for displaying the list on an external computing system connected to the base transceiver via the wired portion of the network.
 16. The method of claim 12, wherein the list associates the unique identifier with a time of the connection request message for a respective terminal.
 17. The method of claim 16, wherein the unique identifier for each terminal comprises a cleartext name for the terminal, and the interface associates the cleartext name with the terminal associated with the connection request message.
 18. A base station for managing access to a network, the base station comprising: a wireless transceiver configured to receive connection request messages from terminals over a wireless portion of the network, and to transmit and receive signals between terminals over at least the wireless portion of the network, each connection request message comprising a unique identifier associated with a requesting terminal; a circuit, connected to the wireless transceiver, and configured to log the unique identifiers associated with the requesting terminals; a storage medium, connected to the circuit, and configured to store a list of the logged unique identifiers associated with the requesting terminals; and a wired transceiver, connected to the storage medium, and configured to communicate the list of the logged unique identifiers to an external interface over at least a wired portion of the network, to receive a control selection of a terminal associated with a unique identifier from the external interface, and to permit access to the network by the terminal indicated in the control selection.
 19. The base station of claim 18, wherein the circuit is configured to log unique identifiers by storing a list of unique identifiers associated with a plurality of terminals from which connection request messages are received.
 20. The base station of claim 18, wherein the circuit is further configured to create a web page viewable by a browser software application, the web page configured for selection of at least one terminal from a plurality of terminals associated with one or more connection request messages. 